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Main Authors: Jian, Pingcheng, Wei, Xiao, Liu, Yanbaihui, Moore, Samuel A., Zavlanos, Michael M., Chen, Boyuan
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2504.15472
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author Jian, Pingcheng
Wei, Xiao
Liu, Yanbaihui
Moore, Samuel A.
Zavlanos, Michael M.
Chen, Boyuan
author_facet Jian, Pingcheng
Wei, Xiao
Liu, Yanbaihui
Moore, Samuel A.
Zavlanos, Michael M.
Chen, Boyuan
contents We introduce Large Language Model-Assisted Preference Prediction (LAPP), a novel framework for robot learning that enables efficient, customizable, and expressive behavior acquisition with minimum human effort. Unlike prior approaches that rely heavily on reward engineering, human demonstrations, motion capture, or expensive pairwise preference labels, LAPP leverages large language models (LLMs) to automatically generate preference labels from raw state-action trajectories collected during reinforcement learning (RL). These labels are used to train an online preference predictor, which in turn guides the policy optimization process toward satisfying high-level behavioral specifications provided by humans. Our key technical contribution is the integration of LLMs into the RL feedback loop through trajectory-level preference prediction, enabling robots to acquire complex skills including subtle control over gait patterns and rhythmic timing. We evaluate LAPP on a diverse set of quadruped locomotion and dexterous manipulation tasks and show that it achieves efficient learning, higher final performance, faster adaptation, and precise control of high-level behaviors. Notably, LAPP enables robots to master highly dynamic and expressive tasks such as quadruped backflips, which remain out of reach for standard LLM-generated or handcrafted rewards. Our results highlight LAPP as a promising direction for scalable preference-driven robot learning.
format Preprint
id arxiv_https___arxiv_org_abs_2504_15472
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle LAPP: Large Language Model Feedback for Preference-Driven Reinforcement Learning
Jian, Pingcheng
Wei, Xiao
Liu, Yanbaihui
Moore, Samuel A.
Zavlanos, Michael M.
Chen, Boyuan
Robotics
Machine Learning
Systems and Control
We introduce Large Language Model-Assisted Preference Prediction (LAPP), a novel framework for robot learning that enables efficient, customizable, and expressive behavior acquisition with minimum human effort. Unlike prior approaches that rely heavily on reward engineering, human demonstrations, motion capture, or expensive pairwise preference labels, LAPP leverages large language models (LLMs) to automatically generate preference labels from raw state-action trajectories collected during reinforcement learning (RL). These labels are used to train an online preference predictor, which in turn guides the policy optimization process toward satisfying high-level behavioral specifications provided by humans. Our key technical contribution is the integration of LLMs into the RL feedback loop through trajectory-level preference prediction, enabling robots to acquire complex skills including subtle control over gait patterns and rhythmic timing. We evaluate LAPP on a diverse set of quadruped locomotion and dexterous manipulation tasks and show that it achieves efficient learning, higher final performance, faster adaptation, and precise control of high-level behaviors. Notably, LAPP enables robots to master highly dynamic and expressive tasks such as quadruped backflips, which remain out of reach for standard LLM-generated or handcrafted rewards. Our results highlight LAPP as a promising direction for scalable preference-driven robot learning.
title LAPP: Large Language Model Feedback for Preference-Driven Reinforcement Learning
topic Robotics
Machine Learning
Systems and Control
url https://arxiv.org/abs/2504.15472